| 3d6(5d)4s a6d 6d9/2 6D4.5 | 0.0 cm-1 |
| 3d6(5d)4s a6d 6d7/2 6D3.5 | 385.2 cm-1 |
| 3d6(5d)4s a6d 6d5/2 6D2.5 | 667.2 cm-1 |
| 3d6(5d)4s a6d 6d3/2 6D1.5 | 862.5 cm-1 |
| 3d6(5d)4s a6d 6d1/2 6D0.5 | 976.7 cm-1 |
| 3d7 a4f 4f9/2 4F4.5 | 1872.1 cm-1 |
| 3d7 a4f 4f7/2 4F3.5 | 2429.6 cm-1 |
| 3d7 a4f 4f5/2 4F2.5 | 2837.8 cm-1 |
| 3d7 a4f 4f3/2 4F1.5 | 3117.6 cm-1 |
| 3d6(5d)4s a4d 4d7/2 4D3.5 | 7954.9 cm-1 |
| 3d6(5d)4s a4d 4d5/2 4D2.5 | 8391.6 cm-1 |
| 3d6(5d)4s a4d 4d3/2 4D1.5 | 8680.2 cm-1 |
| 3d6(5d)4s a4d 4d1/2 4D0.5 | 8847.0 cm-1 |
| 3d7 a4p 4p5/2 4P2.5 | 13474.6 cm-1 |
| 3d7 a4p 4p3/2 4P1.5 | 13673.3 cm-1 |
| 3d7 a4p 4p1/2 4P0.5 | 13904.8 cm-1 |
| 3d6(3p2)4s b4p 4p5/2 4P2.5 | 20830.3 cm-1 |
| 3d6(3h)4s a4h 4h13/2 4H6.5 | 21251.7 cm-1 |
| 3d6(3h)4s a4h 4h11/2 4H5.5 | 21430.6 cm-1 |
| 3d6(3h)4s a4h 4h9/2 4H4.5 | 21582.0 cm-1 |
| 3d6(3h)4s a4h 4h7/2 4H3.5 | 21711.5 cm-1 |
| 3d6(3p2)4s b4p 4p3/2 4P1.5 | 21812.5 cm-1 |
| 3d6(3p2)4s b4p 4p1/2 4P0.5 | 22409.5 cm-1 |
| 3d6(3f2)4s b4f 4f9/2 4F4.5 | 22637.7 cm-1 |
| 3d6(3f2)4s b4f 4f7/2 4F3.5 | 22810.0 cm-1 |
| 3d6(3f2)4s b4f 4f5/2 4F2.5 | 22939.5 cm-1 |
| 3d6(3f2)4s b4f 4f3/2 4F1.5 | 23031.7 cm-1 |
| 3d6(3g)4s a4g 4g11/2 4G5.5 | 25428.3 cm-1 |
| 3d6(3g)4s a4g 4g9/2 4G4.5 | 25805.8 cm-1 |
| 3d6(3g)4s a4g 4g7/2 4G3.5 | 25981.4 cm-1 |
| 3d6(3g)4s a4g 4g5/2 4G2.5 | 26054.9 cm-1 |
| 3d6(3d)4s b4d 4d3/2 4D1.5 | 31364.0 cm-1 |
| 3d6(3d)4s b4d 4d1/2 4D0.5 | 31368.4 cm-1 |
| 3d6(3d)4s b4d 4d5/2 4D2.5 | 31388.2 cm-1 |
| 3d6(3d)4s b4d 4d7/2 4D3.5 | 31483.6 cm-1 |
| 3d6(5d)4p z6do 6d9/2 6D4.5 | 38458.5 cm-1 |
| 3d6(5d)4p z6do 6d7/2 6D3.5 | 38660.5 cm-1 |
| 3d6(5d)4p z6do 6d5/2 6D2.5 | 38859.1 cm-1 |
| 3d6(5d)4p z6do 6d3/2 6D1.5 | 39012.7 cm-1 |
| 3d6(5d)4p z6do 6d1/2 6D0.5 | 39109.3 cm-1 |
| 3d6(5d)4p z6fo 6f11/2 6F5.5 | 41967.9 cm-1 |
| 3d6(5d)4p z6fo 6f9/2 6F4.5 | 42115.0 cm-1 |
| 3d6(5d)4p z6fo 6f7/2 6F3.5 | 42236.8 cm-1 |
| 3d6(5d)4p z6fo 6f5/2 6F2.5 | 42334.5 cm-1 |
| 3d6(5d)4p z6fo 6f3/2 6F1.5 | 42401.4 cm-1 |
| 3d6(5d)4p z6fo 6f1/2 6F0.5 | 42439.8 cm-1 |
| 3d6(5d)4p z6po 6p7/2 6P3.5 | 42658.2 cm-1 |
| 3d6(5d)4p z6po 6p5/2 6P2.5 | 43238.7 cm-1 |
| 3d6(5d)4p z6po 6p3/2 6P1.5 | 43620.6 cm-1 |
| 3d6(5d)4p z4fo 4f9/2 4F4.5 | 44232.9 cm-1 |
| 3d6(5d)4p z4do 4d7/2 4D3.5 | 44446.9 cm-1 |
| 3d6(5d)4p z4fo 4f7/2 4F3.5 | 44754.2 cm-1 |
| 3d6(5d)4p z4do 4d5/2 4D2.5 | 44784.9 cm-1 |
| 3d6(5d)4p z4do 4d3/2 4D1.5 | 45043.9 cm-1 |
| 3d6(5d)4p z4fo 4f5/2 4F2.5 | 45080.1 cm-1 |
| 3d6(5d)4p z4do 4d1/2 4D0.5 | 45206.3 cm-1 |
| 3d6(5d)4p z4fo 4f3/2 4F1.5 | 45289.7 cm-1 |
| 3d6(5d)4p z4po 4p5/2 4P2.5 | 46967.6 cm-1 |
| 3d6(5d)4p z4po 4p3/2 4P1.5 | 47390.1 cm-1 |
| 3d6(5d)4p z4po 4p1/2 4P0.5 | 47626.0 cm-1 |
| 3d6(3p1)4s c4p 4p1/2 4P0.5 | 49100.9 cm-1 |
| 3d6(3p1)4s c4p 4p3/2 4P1.5 | 49506.9 cm-1 |
| 3d6(3f1)4s c4f 4f3/2 4F1.5 | 50076.4 cm-1 |
| 3d6(3f1)4s c4f 4f5/2 4F2.5 | 50142.3 cm-1 |
| 3d6(3f1)4s c4f 4f9/2 4F4.5 | 50157.6 cm-1 |
| 3d6(3f1)4s c4f 4f7/2 4F3.5 | 50188.4 cm-1 |
| 3d6(3p1)4s c4p 4p5/2 4P2.5 | 50212.5 cm-1 |
| 3d6(3p2)4p z4s 4s3/2 4S1.5 | 59663.1 cm-1 |
| 3d6(3p2)4p y4p 4p5/2 4P2.5 | 60402.7 cm-1 |
| 3d6(3h)4p z4go 4g11/2 4G5.5 | 60625.5 cm-1 |
| 3d6(3h)4p z4go 4g9/2 4G4.5 | 60807.6 cm-1 |
| 3d6(3h)4p z4ho 4h13/2 4H6.5 | 60837.3 cm-1 |
| 3d6(3h)4p z4ho 4h11/2 4H5.5 | 60887.7 cm-1 |
| 3d6(3h)4p z4go 4g7/2 4G3.5 | 60956.9 cm-1 |
| 3d6(3h)4p z4ho 4h9/2 4H4.5 | 60989.8 cm-1 |
| 3d6(3p2)4p y4p 4p1/2 4P0.5 | 61034.8 cm-1 |
| 3d6(3h)4p z4go 4g5/2 4G2.5 | 61041.4 cm-1 |
| 3d6(3h)4p z4ho 4h7/2 4H3.5 | 61156.6 cm-1 |
| 3d6(3p2)4p y4p 4p3/2 4P1.5 | 61333.3 cm-1 |
| 3d6(3h)4p z4io 4i15/2 4I7.5 | 61347.5 cm-1 |
| 3d6(3h)4p z4io 4i9/2 4I4.5 | 61512.2 cm-1 |
| 3d6(3h)4p z4io 4i13/2 4I6.5 | 61527.5 cm-1 |
| 3d6(3h)4p z4io 4i11/2 4I5.5 | 61586.8 cm-1 |
| 3d6(3p2)4p y4d 4d7/2 4D3.5 | 61726.1 cm-1 |
| 3d6(3f2)4p y4f 4f7/2 4F3.5 | 62065.2 cm-1 |
| 3d6(3f2)4p y4f 4f5/2 4F2.5 | 62151.9 cm-1 |
| 3d6(3f2)4p y4f 4f9/2 4F4.5 | 62158.5 cm-1 |
| 3d6(3f2)4p y4f 4f3/2 4F1.5 | 62244.1 cm-1 |
| 3d6(3p2)4p y4d 4d5/2 4D2.5 | 62689.6 cm-1 |
| 3d6(3p2)4p y4d 4d1/2 4D0.5 | 62829.0 cm-1 |
| 3d6(3f2)4p x4d 4d7/2 4D3.5 | 62945.3 cm-1 |
| 3d6(3p2)4p y4d 4d3/2 4D1.5 | 62961.8 cm-1 |
| 3d6(3f2)4p x4d 4d5/2 4D2.5 | 63273.4 cm-1 |
| 3d6(3f2)4p x4d 4d3/2 4D1.5 | 63465.5 cm-1 |
| 3d6(3f2)4p x4d 4d1/2 4D0.5 | 63559.9 cm-1 |
| 3d6(3f2)4p y4g 4g11/2 4G5.5 | 63875.9 cm-1 |
| 3d6(3f2)4p y4g 4g9/2 4G4.5 | 63948.3 cm-1 |
| 3d6(3f2)4p y4g 4g7/2 4G3.5 | 64040.5 cm-1 |
| 3d6(3f2)4p y4g 4g5/2 4G2.5 | 64087.7 cm-1 |
| 3d6(3g)4p x4go 4g11/2 4G5.5 | 65580.1 cm-1 |
| 3d6(3g)4p x4go 4g9/2 4G4.5 | 65696.4 cm-1 |
| 3d6(3g)4p x4go 4g7/2 4G3.5 | 65931.3 cm-1 |
| 3d6(3g)4p x4fo 4f9/2 4F4.5 | 66012.5 cm-1 |
| 3d6(3g)4p x4go 4g5/2 4G2.5 | 66078.3 cm-1 |
| 3d6(3g)4p x4fo 4f7/2 4F3.5 | 66376.8 cm-1 |
| 3d6(3g)4p y4ho 4h13/2 4H6.5 | 66411.9 cm-1 |
| 3d6(3g)4p y4ho 4h11/2 4H5.5 | 66463.5 cm-1 |
| 3d6(3g)4p x4fo 4f5/2 4F2.5 | 66522.8 cm-1 |
| 3d6(3g)4p y4ho 4h9/2 4H4.5 | 66588.6 cm-1 |
| 3d6(3g)4p x4fo 4f3/2 4F1.5 | 66612.7 cm-1 |
| 3d6(3g)4p y4ho 4h7/2 4H3.5 | 66672.0 cm-1 |
| 3d6(3d)4p w4po 4p5/2 4P2.5 | 71964.6 cm-1 |
| 3d6(3d)4p w4po 4p3/2 4P1.5 | 72042.5 cm-1 |
| 3d6(3d)4p w4fo 4f3/2 4F1.5 | 72168.7 cm-1 |
| 3d6(3d)4p w4po 4p1/2 4P0.5 | 72212.6 cm-1 |
| 3d6(3d)4p w4fo 4f5/2 4F2.5 | 72239.0 cm-1 |
| 3d6(3d)4p w4fo 4f7/2 4F3.5 | 72352.0 cm-1 |
| 3d6(3d)4p w4do 4d1/2 4D0.5 | 72429.9 cm-1 |
| 3d6(3d)4p w4do 4d3/2 4D1.5 | 72524.3 cm-1 |
| 3d6(3d)4p w4do 4d5/2 4D2.5 | 72619.8 cm-1 |
| 3d6(3d)4p w4fo 4f9/2 4F4.5 | 72650.5 cm-1 |
| 3d6(3d)4p w4do 4d7/2 4D3.5 | 72651.6 cm-1 |
| 3d6(3p1)4p v4d 4d1/2 4D0.5 | 86388.5 cm-1 |
| 3d6(3p1)4p v4d 4d3/2 4D1.5 | 86544.3 cm-1 |
| 3d6(3p1)4p v4d 4d5/2 4D2.5 | 86767.1 cm-1 |
| 3d6(3p1)4p v4d 4d7/2 4D3.5 | 86929.5 cm-1 |
| 3d6(3f1)4p 4go 4g5/2 4G2.5 | 89727.8 cm-1 |
| 3d6(3f1)4p 4go 4g7/2 4G3.5 | 89890.2 cm-1 |
| 3d6(3f1)4p 4go 4g9/2 4G4.5 | 90042.8 cm-1 |
| 3d6(3f1)4p 4go 4g11/2 4G5.5 | 90211.8 cm-1 |
| 3d6(3p1)4p 4so 4s3/2 4S1.5 | 90629.9 cm-1 |
| 3d6(3p1)4p 4po 4p1/2 4P0.5 | 90839.5 cm-1 |
| 3d6(3p1)4p 4po 4p3/2 4P1.5 | 90898.7 cm-1 |
| 3d6(3p1)4p 4po 4p5/2 4P2.5 | 92273.7 cm-1 |
| 3d6(3f1)4p 4do 4d1/2 4D0.5 | 92453.7 cm-1 |
| 3d6(3f1)4p 4do 4d3/2 4D1.5 | 92647.9 cm-1 |
| 3d6(3f1)4p 4do 4d5/2 4D2.5 | 92899.2 cm-1 |
| 3d6(3f1)4p 4do 4d7/2 4D3.5 | 93129.7 cm-1 |
| 3d6(3f1)4p u4f 4f3/2 4F1.5 | 93328.3 cm-1 |
| 3d6(3f1)4p u4f 4f5/2 4F2.5 | 93395.2 cm-1 |
| 3d6(3f1)4p u4f 4f9/2 4F4.5 | 93484.1 cm-1 |
| 3d6(3f1)4p u4f 4f7/2 4F3.5 | 93487.4 cm-1 |
---------------------------------------------------------------------------- Data generated from CHIANTI version 6.0 http://www.chianti.rl.ac.uk/ CHIANTI references ------------------ Energy levels : %observed energy levels: J. Sugar, C. Corliss, 1985, J. Phys. Chem. Ref. Data., 14, Supplement No.2. %theoretical energy levels: Zhang, H.L., Pradhan, A.K., 1995, A&AS, 293, 953. %comment: also identified by Zhang and Pradhan: 145 21 3d6.(3F2).4p y 4 3 F 3.5 8 62065.520 0.56558424 195 24 3d6.(3D).4p w 4 1 P 2.5 6 71964.711 0.65579259 196 24 3d6.(3D).4p w 4 1 P 1.5 4 72043.023 0.65650624 197 24 3d6.(3D).4p w 4 1 P 0.5 2 72429.711 0.66003001 204 24 3d6.(3D).4p w 4 2 D 0.5 2 72212.977 0.65805495 318 36 3d6.(3F1).4p 4 4 4 G 2.5 6 89727.344 0.81765807 319 36 3d6.(3F1).4p 4 4 4 G 3.5 8 89890.375 0.81914371 320 36 3d6.(3F1).4p 4 4 4 G 4.5 10 90042.781 0.82053256 321 36 3d6.(3F1).4p 4 4 4 G 5.5 12 90211.703 0.82207191 336 32 3d6.(3P1).4p 4 4 0 S 1.5 4 90629.898 0.82588279 337 32 3d6.(3P1).4p 4 4 1 P 0.5 2 90839.484 0.82779264 338 32 3d6.(3P1).4p 4 4 1 P 1.5 4 90898.875 0.82833385 339 32 3d6.(3P1).4p 4 4 1 P 2.5 6 92274.117 0.84086603 364 36 3d6.(3F1).4p 4 2 D 0.5 4 92453.461 0.84250033 365 36 3d6.(3F1).4p 4 2 D 1.5 6 92647.508 0.84426862 366 36 3d6.(3F1).4p 4 2 D 2.5 6 92899.203 0.84656227 367 36 3d6.(3F1).4p 4 2 D 3.5 8 93129.898 0.84866452 %comment: added notation for: 167 20 3d6.(3H).4p z 2 5 H 5.5 12 65363.594 0.59563863 % %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration % % K.P.Dere 1994 A-values levels : %filename: fe_2.wgfa %observed energy levels: J. Sugar, C. Corliss, 1985, J. Phys. Chem. Ref. Data., 14, Supplement No.2 %theoretical energy levels: Zhang, H.L., Pradhan, A.K., 1995, A&AS, 293, 953 %oscillator strengths: Fuhr, J.R., Martin, G.A., Wiese, W.L., 1988, J.Phys.Chem.Ref.Data, 17, Suppl 3 and 4 %oscillator strengths, A values: Nahar, S.N., 1995, A&A, 293, 967 %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration % % K.P.Dere 1994 Collision strengths : %filename: fe_2.splups %oscillator strengths: Fuhr, J.R., Martin, G.A., Wiese, W.L., 1988, J.Phys.Chem.Ref.Data, 17, Suppl 3 and 4 %oscillator strengths: Nahar, S.N., 1995, A&A, 293, 967 %effective collision strengths: Zhang, H.L., Pradhan, A.K., 1995, A&A, 293, 953 %comment: effective collision strengths were provided in the temperature range 3.7 < Log T 4.7 %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration % % K.P.Dere - 1994 Added to ADAS by ---------------- Author : Martin O'Mullane Date : 28/10/10 ---------------------------------------------------------------------------- Level list : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 Original level order : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 20 21 22 23 18 19 24 25 26 27 28 29 30 31 34 35 33 32 36 37 38 39 40 41 42 43 44 45 46 47 48 49 54 50 55 51 52 56 53 57 58 59 60 67 66 64 63 61 62 65 68 69 72 73 76 77 74 78 71 75 79 70 80 83 81 82 84 93 94 92 95 85 87 88 86 89 90 91 96 97 98 99 104 105 106 100 107 101 108 109 102 110 103 111 112 113 122 114 121 120 118 117 116 119 115 126 125 124 123 130 129 128 127 131 134 133 132 138 137 136 135 142 141 139 140 ------------------------------------------------------------------------------- Filtered adf04 file to - sort energy levels - remove non physical A values from energy level reversals - remove energies above ionisation potential - remove duplicate transitions Code : ADAS utility program, filter04 Date : 28-10-2010 Producer : Martin O'Mullane ------------------------------------------------------------------------------- Regenerated to use the standard ADAS temperature set. Update : Martin O'Mullane Date : 28-10-2010 -------------------------------------------------------------------------------